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37
NEW YORK UNIVERSITY
JOURNAL OF INTELLECTUAL PROPERTY
AND ENTERTAINMENT LAW
VOLUME 4 WINTER 2014 NUMBER 1
ASSOCIATION FOR MOLECULAR PATHOLOGY V.
MYRIAD GENETICS, INC. AND ITS IMPACT ON THE
PATENTABILTY OF “DESIGNER” GENES
AMANDA H. RUSSO*
With the rapid advances in biotechnology and the widespread availability and
popularity of assisted reproductive technologies, biologists may soon have the
ability to manipulate human gametes and embryos in order to create children
with certain desirable characteristics. Despite the fact that this scientific idea is
closer to becoming a reality, the question remains whether such techniques or the
altered genetic material itself are eligible for patents. After the Supreme Court’s
decision in Association for Molecular Pathology v. Myriad Genetics, Inc., — US.
—, 133 S. Ct. 2107 (2013), the court held that isolated DNA was not the proper
subject matter for patent under 35 U.S.C. § 101, while holding a patent on
synthetic DNA, or “cDNA.” This article argues for a narrow reading of the
holding in Myriad Genetics regarding cDNA, which would limit its application to
the medical uses and gene therapy.
* J.D. Candidate, New York University School of Law, 2015; B.A. and B.S., cum laude,
University of Florida, 2012. The author wishes to express her sincerest appreciation to the
editorial board and members of the NYU Journal of Intellectual Property & Entertainment Law
for their dedication and hard work throughout the editorial process.
2014] PATENTABILITY OF “DESIGNER” GENES 38
INTRODUCTION ..............................................................................................38
I. THE HISTORY OF ASSISTED REPRODUCTIVE TECHNOLOGIES ..........................42
A. Understanding Genetics & the Future of Biotechnology .........................42
1. Basic Genetic Concepts .......................................................................42
2. Current Reproductive Biotechnologies ...............................................43
i. In Vitro Fertilization and Pre-Implantation Genetic Diagnosis ...43
ii. Cloning .........................................................................................45
iii. Somatic and Germ-line Gene Modification .................................47
II. THE SUPREME COURTS DECISION IN ASSOCIATION FOR
MOLECULAR PATHOLOGY V. MYRIAD GENETICS, INC. ..................................50
A. Procedural Posture of Myriad Genetics .............................................50
B. The Supreme Court’s Decision .................................................................54
III. THE APPLICATION OF MYRIAD GENETICS TO GENETICALLY
MODIFIED OR SYNTHETIC GAMETES AND EMBRYOS ......................................56
A. The Emergence of Human Genes as a Topic in Patent Law ...............57
B. Judicial Precedent on the Patentability of Living Organisms .................58
C. The Demise of the “Beneficial Utility” Requirement and the
Introduction of the America Invents Act...................................................60
1. The America Invents Act’s Prohibition on Patents for Inventions
“Directed to or Encompassing Human Organisms.” .................61
CONCLUSION .................................................................................................66
INTRODUCTION
Would you like blue eyes with that? In the near future, prospective parents
might be able to select their children’s genetic features from a drop-down menu.1
With a heightened societal focus on perfection, it is not absurd to think parents
would want to create the ideal child, nor to think it would be impossible.
Advances in the biotechnology industry have increased scientists’ understanding of
the human genome and enhanced their ability to genetically modify eggs, sperm,
and human embryos. These developments have the potential to make “designer”
babies a very stark reality.
The Supreme Court’s decision in Association for Molecular Pathology v.
Myriad Genetics, Inc.2 could be interpreted as paving the way for patenting
1 See, e.g., Dov Fox, 23andme’s Designer Baby Patent, HUFFINGTON POST (Oct. 4, 2013),
http://www.huffingtonpost.com/dov-fox/23andmes-designer-baby-pa_b_4042165.html. 2 Ass’n for Molecular Pathology v. Myriad Genetics, Inc., — U.S. —, 133 S. Ct. 2107, 2118–
19 (2013) [hereinafter Myriad Genetics].
39 N.Y.U. JOURNAL OF INTELL. PROP. & ENT. LAW [Vol. 4:1
genetically altered genome or gamete cells. Every gene in the human body is
encoded as deoxyribonucleic acid (“DNA”), and Myriad Genetics confronted the
issue of whether a naturally occurring segment of DNA was eligible for patent.3
The Court held that, while isolated, naturally occurring DNA was outside the realm
of patent, complimentary DNA (“cDNA”), or a synthesized DNA copy, was
patent-eligible.4 However, the Court specifically concluded its opinion by noting
that the “scientific alteration of the genetic code presents a different inquiry, and
we express no opinion about the application of [patent eligibility] to such
endeavors.”5
If biotech scientists have the ability to manipulate the genes of an embryo or
gamete cell for non-therapeutic purposes, it could be argued that these genetically
modified cells are in fact patentable “inventions,” given that the material was not,
in that particular sequence, naturally occurring. The country has already seen
movement in this area. In September 2013, the United States Patent and
Trademark Office awarded a patent to 23andMe for its gamete donor selection
techniques, including genetic and computer technologies.6 These technologies
allow prospective parents to select a gamete donor who would increase the
likelihood that a child would be born with or without certain hereditary
characteristics. With the technology, parents can choose from a variety of traits
which go beyond medical conditions, enabling them to specify certain physical and
psychological characteristics. It is true that the company was not attempting to
patent actual sperm or egg cells, but merely facilitate a “preview” of unborn
children. Most of the current technologies that closely resemble actual genetic
selection focus on testing the embryo or fetus to screen for several undesirable
physiological genetic characteristics. For example, pre-implantation genetic
diagnosis (“PGD”) has grown to be a common service at fertility clinics, allowing
couples undergoing in vitro fertilization to test multiple embryos for genetic
disorders before deciding which one to implant.7
3 Id. at 2111. 4 Id. 5 Id. at 2119–20. 6 Fox, supra note 1; Terry Baynes, Genetic-Testing Patent Raises Concerns About ‘Designer
Babies’, COUNCIL FOR RESPONSIBLE GENETICS (Oct. 9, 2013),
http://www.councilforresponsiblegenetics.org/blog/post/Genetic-testing-patent-raises-concerns-
about-e28098designer-babiese28099.aspx. 7 Id.
2014] PATENTABILITY OF “DESIGNER” GENES 40
Recognizing this trend, Congress passed section 33 of the America Invents
Act (“AIA”)8 in 2011, resulting in, among other things, a prohibition on patents for
inventions “directed to or encompassing a human organisms.”9 Unfortunately, the
AIA never expressly defines any of the terms in this provision, so it is not entirely
clear what specific subject matter would fall under the prohibition. Moreover, in
Myriad Genetics, the Supreme Court found that an identical provision was
inapplicable in a discussion on real and synthetic human genes, noting that the
“Act does not even mention genes, much less isolated DNA.”10 While one can
consequently interpret Myriad in a way that limits the scope of the Act, it leaves
open the question of the patentability of modified human gametes and embryos and
the altered or synthetic gene sequencing which could potentially be encompassed
within those gametes and embryos.
Patentability of inventions is governed by 35 U.S.C. § 101, which has
several requirements. First, it must be of patentable subject matter — “process,
machine, manufacture, or composition of matter . . . or improvement thereof.”11
Second, it must be “new” or “novel.”12 And, third, it must be “useful.”13 While no
express clause excludes inventions that contravene morality from patent-eligibility,
courts historically imposed a “socially beneficial” standard under the third prong of
utility; in effect, this standard served as a morality condition rendering inventions
with a use deemed “injurious to the well-being, good policy, or good morals of
society”14 ineligible for patent protection. Now, though, the PTO and federal
courts rarely enforce this morality standard.15 In fact, in the context of genetic
material, the PTO expressly rejected the morality-based argument that “patents
8 Leahy-Smith America Invents Act, Pub. L. No. 112–29, 125 Stat. 284 (2011) (codified as
amended in scattered sections of Title 35 of the U.S. Code). 9 Id. § 33(a), 125 Stat. at 340. 10 Myriad Genetics, 133 S. Ct. at 2118–19. Prior to the America Invents Act, Congress had
banned the patenting of human embryos and organisms through annual budget appropriation acts
since 2004. The Court was addressing the language found in Consolidated Appropriations Act
of 2004, which is nearly identical to that in the America Invents Act. See Consolidated
Appropriations Act of 2004, Pub. L. No. 108–199, § 634, 118 Stat. 101 (codified as amended in
scattered sections of Title 35 of the U.S. Code) (“None of the funds appropriated or otherwise
made available under this Act may be used to issue patents on claims directed to or
encompassing a human organism.”) 11 35 U.S.C. § 101 (2012). 12 Id. 13 Id. 14 Lowell v. Lewis, 15 F. Cas. 1018, 1019 (C.C.D. Mass. 1817) (No. 8568). 15 Laura A. Keay, Morality’s Move Within U.S. Patent Law: From Moral Utility to Subject
Matter, 40 AIPLA Q.J. 409, 429 (2012).
41 N.Y.U. JOURNAL OF INTELL. PROP. & ENT. LAW [Vol. 4:1
should not issue for [human] genes [simply] because the sequence of the human
genome is at the core of what it means to be human.”16 In Myriad Genetics, the
Supreme Court did not even consider morality-based arguments.17 But despite the
move away from a requirement of socially beneficial utility, courts have generally
been reluctant to step on the toes of legislatures when they have specifically
excluded a subject matter from the realm of patentability for ethical or moral
concerns.18
With the diminished strength of the morality safeguard and huge advance in
the biotech industry, Myriad Genetics could arguably be read in support of patents
on manipulated or synthetic genes or genome sequences for use in human embryos
and gametes. This Note will argue that Myriad Genetics should not be interpreted
in such a way. Instead, Myriad Genetics should be read narrowly, limiting patent-
eligibility of cDNA to only its uses in medical research and testing and gene
therapy. Part I will explore the history of genetically altered human genes and
feasibility of manipulating human embryos within the biotech industry. Part II will
analyze the Myriad Genetics decision and its current impact on the patent-
eligibility of biotech “inventions.” Part III will examine court precedent within the
area of gene patenting and will argue for narrow application of Myriad Genetics to
genetically altered human gametes and embryos, specifically in light of Section
33(a) of the AIA.
16 Dep’t of Comm., U.S. Pat. & Trademark Office, Utility Examination Guidelines, 66 Fed.
Reg. 1092, 1093–94 (Jan. 5, 2001), available at http://www.uspto.gov/web/offices/com/sol/
og/2001/week05/patutil.htm. 17 Fox, supra note 1. 18 See, e.g., Diamond v. Chakrabarty, 447 U.S. 303, 317 (1980) (“[B]alancing of competing
values and interests, which in our democratic system is the business of elected representatives …
should be addressed to the political branches of the Government, the Congress and the
Executive, and not to the courts.”); Juicy Whip, Inc., v. Orange Bang, Inc., 185 F.3d 1364,1366-
68 (Fed. Cir. 1999) (upholding patent on deceptive product, but noting that it would defer to
Congress if it were to make the patenting of such devices illegal).
2014] PATENTABILITY OF “DESIGNER” GENES 42
I
THE HISTORY OF ASSISTED REPRODUCTIVE TECHNOLOGIES
A. Understanding Genetics & the Future of Biotechnology
1. Basic Genetic Concepts
“We’re on the cusp of having much more information, and the appearance
of having much greater discretion, in choosing the traits of our children,” said
Thomas H. Murray, Senior Research Scholar and President Emeritus at The
Hastings Center, a nonpartisan bioethics research institution.19 Murray asked,
“What use will they make of it, and should there be limits?”20
Before one can understand the implications of patenting genetically altered
or synthetic gametes or embryos, it is useful to understand basic genetic concepts.
The cells contained within an early embryo are of two types: germ cells and
somatic cells.21 The germ cells contain hereditary information and become the
gametes (i.e. eggs and sperm) of a developing organism, which transmit such
information.22 Every other cell in the body is a somatic cell.23 All of these cells
contain genes, but only those in the germ cells are passed on to offspring.24
Chromosomes are contained in the nucleus of all cells.25 Each chromosome is
made up of DNA molecules that are held together by chemically-joined
nucleotides, creating a system of cross-bars26 that support the DNA’s double-helix
structure.27 The sequencing of these nucleotides within the DNA molecule creates
19 Tia Ghose, Children to Order: The Ethics of “Designer Babies”, LIVE SCIENCE (Mar. 13,
2014, 2:00 PM), http://www.livescience.com/44087-designer-babies-ethics.html. 20 Id. 21 See COUNCIL FOR RESPONSIBLE GENETICS, POSITION PAPER ON HUMAN GERMLINE
MANIPULATION (updated Fall 2000), http://www.councilforresponsiblegenetics.org/
Viewpage.aspx?pageid=101 [hereinafter POSITION PAPER]. 22 SUSANNAH BARUCH ET AL., GENETICS & PUB. POL’Y CTR,
HUMAN GERMLINE GENETIC MODIFICATION: ISSUES AND OPTIONS FOR POLICYMAKERS 11
(2005), available at http://www.dnapolicy.org/images/reportpdfs/HumanGermlineGeneticMod.
pdf. 23 Id. 24 POSITION PAPER, supra note 21. 25 National Institutes of Health, What is a Chromosome?, GENETICS HOME REFERENCE (Nov.
24, 2013), http://ghr.nlm.nih.gov/handbook/basics/chromosome. 26 Myriad Genetics, 133 S. Ct. at 2111. 27 National Institutes of Health, What is DNA?, GENETICS HOME REFERENCE (Nov. 24, 2013),
http://ghr.nlm.nih.gov/handbook/basics/dna.
43 N.Y.U. JOURNAL OF INTELL. PROP. & ENT. LAW [Vol. 4:1
the human genome28, and determines the information available for building and
maintaining an organism, serving a similar function to letters that are strung
together to create words and sentences.29 These sequences of nucleotides enable
the creation of amino acids, which form the proteins in the body.30 The nucleotides
that code for amino acids are called “exons,” and those that do not are called
“introns.”31 For purposes of this article, it is also important to note that scientists
can extract and isolate DNA molecules from cells in order to study specific
sequences.32 In addition, they can create composite DNA (“cDNA”) from these
molecules, which are exon-only strands of nucleotides.33
2. Current Reproductive Biotechnologies
A number of current reproductive technologies seem to be bringing the
reality of designer children closer and closer. The successes and failures of these
technologies undoubtedly provide biologists with a deeper understanding of human
genetic makeup and the human body’s interaction and response to scientifically
manipulated genes. What follows is an introduction to some current
biotechnologies that are undoubtedly accelerating scientists’ ability to genetically
enhance the children of tomorrow.
i. In Vitro Fertilization and Pre-Implantation Genetic Diagnosis
The increasing availability of in vitro fertilization unquestionably increases
the potential for the specific selection of genetic characteristics to be passed on to
offspring. In vitro fertilization (“IVF”) is a method of producing an embryo ex
utero — outside of the uterus — and the subsequent implantation of that embryo
28 The human genome consists of a complete collection of DNA. For more information, see
Human Genome Project, Human Genome: Introduction, HUMANGENES.ORG (2014),
http://humangenes.org/human-genome-introduction [hereinafter NIH, What is DNA?]. 29 Id. 30 National Institutes of Health, Intron Definition, GENETICS HOME REFERENCE (Nov. 24,
2013), http://ghr.nlm.nih.gov/glossary=intron [hereinafter NIH, Intron Definition]; National
Institutes of Health, Exon Definition, GENETICS HOME REFERENCE (Nov. 24, 2013),
http://ghr.nlm.nih.gov/glossary=exon [hereinafter NIH, Exon Definition]. 31 NIH, Intron Definition, supra note 30; NIH, Exon Definition, supra note 30. 32 Myriad Genetics, 133 S. Ct. at 2112. 33 For more information on cDNA, see Human Genome Project, cDNA (Complementary
DNA), HUMANGENES.ORG (2014), http://humangenes.org/cdna-complementary-dna (last visited
Dec. 1, 2014).
2014] PATENTABILITY OF “DESIGNER” GENES 44
inside a woman’s uterus.34 At the beginning of this process, sperm and ovum are
cultured and researchers calculate the optimal time for fertilization.35 After an
embryo is successfully created, the embryo is transferred into the uterus of the
mother in hopes of implantation. Prior to this transfer, clinicians typically wait two
to five days36, during which time they evaluate the shape and appearance of the
embryo.37
Another currently available technology, which complements IVF, is known
as pre-implantation genetic diagnosis (“PGD”).38 This method allows scientists to
test an embryo prior to implantation, in order to determine whether it carries a
particular genetic disease39, similar to a process known as gene therapy40. The
embryos that are determined to be disease-free are those that are then implanted in
the mother.41 According to the Wall Street Journal, some United States clinics have
even been using PGD to allow customers to choose the gender of their child.42 The
same method could be used with relative ease to select particular physical traits of
unborn children like eye or hair color.43 Other characteristics like intelligence or
athleticism would be harder to select for using PGD, given that they are made up
of several genetic factors, but seemingly not impossible44
Advocates claim that the use of PGD to screen embryos has the potential to
eliminate complete lines of hereditary diseases, even those that have run in families
34 PRESIDENT’S COUNCIL ON BIOETHICS, REPRODUCTION AND RESPONSIBILITY: THE
REGULATION OF NEW BIOTECHNOLOGIES 26, 30 (Mar. 2004), available at
http://hdl.handle.net/10822/559381 [hereinafter REPRODUCTION AND RESPONSIBILITY]. 35 Id. at 26. 36 Some clinicians wait until five days after fertilization (also known as the blastocyst stage)
in order to maximize the probability of implantation. Id. at 30. 37 Id. 38 Gautam Naik, ‘Designer Babies:’ Patented Process Could Lead to Selection of Genes for
Specific Traits, WALL STREET J. (Oct. 3, 2013),
http://online.wsj.com/articles/SB10001424052702303492504579113293429460678. 39 Id. 40 Gene therapy is a process discussed infra that is primarily focused on curing or reducing
human diseases and conditions. See Kathi E. Hanna, Genetic Enhancement, NATIONAL HUMAN
GENOME RESEARCH INSTITUTE (last reviewed April 2006), http://www.genome.gov/10004767. 41 Naik, supra note 38. 42 Id. 43 Id. 44 Id.
45 N.Y.U. JOURNAL OF INTELL. PROP. & ENT. LAW [Vol. 4:1
for generations.45 While proponents reject the idea that PGD will lead to the
possibility of designer children46, the ability to select for or against certain genetic
conditions raises the question of why that same procedure could not also be used to
select for physical or psychological characteristics.
ii. Cloning
The ability of scientists to genetically clone animals and humans is another
technique that significantly adds to the possibility for designer babies. Cloning is a
term that refers to a number of techniques that enable the production of genetically
identical organisms, and comes in three types, gene cloning, reproductive cloning,
and therapeutic cloning — all of which remain controversial.47 Gene cloning
involves the isolation and copying of genes from within an organism’s cells, while
therapeutic and reproductive cloning entails the creation of a cloned embryo,
containing genes identical to the original organism, albeit for different purposes48.
Scientists can now use such processes to successfully clone a variety of genes and
organisms, including mammal embryos.49 In one method of cloning, scientists can
take and isolate a single gene and then create a complimentary sequence of DNA,
or cDNA.50 The cDNA can then be used for study or use in a pharmaceutical
setting, or, alternatively, the cloned genes could be inserted into other organisms.51
In utilizing each of these techniques, the existing genetic code of the clone cell or
organism is effectively altered to contain a genetic sequence that was not naturally
occurring. Thus, such methods could theoretically be used in the genetic
enhancement of human embryos.
45 Designer Babies: Controversy Over Embryo Selection, TELEGRAPH (Jan. 9, 2009, 9:59
AM), http://www.telegraph.co.uk/health/healthnews/4206623/Designer-babies-Controversy-
over-embryo-selection.html. 46 Id. 47 Natonal Institutes of Health, Cloning, NATIONAL HUMAN GENOME RESEARCH INSTITUTE
(last reviewed April 28, 2014), http://www.genome.gov/25020028 (hereinafter NIH, Cloning). 48 Id. 49 NEIL A. CAMPBELL & JANE B. REECE, BIOLOGY 375 (6th ed. 2002). See, e.g., I. Wilmut et
al., Viable Offspring Derived from Fetal and Adult Mammalian Cells, 385 NATURE 810 (1997)
(discussing the cloning of genes in sheep); REPRODUCTION AND RESPONSIBILITY, supra note 34,
at 126 (discussing the successful cloning of human embryos for embryonic stem cell lines). 50 CAMPBELL & REECE, supra note 49, at 380–81. 51 Id. at 377. cDNA is distinct from isolated DNA segments, in that the introns, as discussed
above, are completely removed from the cDNA sequence and are not naturally occurring. Id. at
380–81.
2014] PATENTABILITY OF “DESIGNER” GENES 46
Several examples serve to demonstrate the success of advances in cloning
technologies in recent years. For instance, through the use of cDNA, genes from
foreign organisms can be inserted into the cells of other organisms, regardless of
whether it is of the same or different species.52 In fact, it has become quite
common for biologists to genetically engineer non-human organisms, including
mammals, by inserting and removing genes from their genomes to create an
entirely novel organism.53 Moreover, even as far back as a decade ago, scientists
had cloned hybrid human-animal embryos through the fusion of human cells with
enucleated eggs from rabbits and enucleated oocytes from cows, resulting in
nonhuman organisms.54 Most significantly, South Korean researchers claimed to
be the first to verify the successful cloning of human embryos in 2004.55 They
claimed to have produced 30 cloned human embryos and continued to cultivate
them to the blastocyst stage.56 The experiment allegedly resulted in the growth of
the embryos to an age in which researchers could derive a pluripotent57 embryonic
human stem cell line.58 However, in January of 2006, Science Magazine retracted
the study papers produced by the South Korean researchers, after an independent
investigating committee found misconduct and data fabrication.59 Nonetheless,
these obvious scientific progress in the ability to genetically alter human embryos
through cloning techniques make genetic enhancement of humans all the more
likely.
52 Id. at 376. 53 JAMES D. WATSON ET AL., MOLECULAR BIOLOGY OF THE GENE 262 (5th ed. 2004). 54 REPRODUCTION AND RESPONSIBILITY, supra note 34, at 125 (citations omitted). 55 Woo S. Hwang et al., Evidence of a Pluripotent Human Embryonic Stem Cell Line Derived
from a Cloned Human Blastocyst, SCIENCEXPRESS (Feb. 12, 2004), available at
http://www.bedfordresearch.org/newsandlibrary/files/HuESSCNT.pdf. 56 Reproduction and Responsibility, supra note 34, at 126. 57 “Pluripotent” stem cells are those cells that have the ability to develop into nearly all cells
in the body, and, so, when isolated from the embryo, these cells have the potential to produce
almost all human cells. See Ian Murnaghan, Pluripotent Stem Cells, Explore Stem Cells (updated
June 18, 2014), http://www.explorestemcells.co.uk/pluripotentstemcells.html. 58 Reproduction and Responsibility, supra note 34, at 126 (citing Woo S. Hwang et al.,
Evidence of a Pluripotent Human Embryonic Stem Cell Line Derived from a Cloned Human
Blastocyst, Sciencexpress (Feb. 12, 2004), available at http://www.bedfordresearch.org
/newsandlibrary/files/HuESSCNT.pdf). 59 Donald Kennedy, Editorial Retraction, Science Mag. (Jan. 20, 2006),
http://www.sciencemag.org/content/311/5759/335.2.short.
47 N.Y.U. JOURNAL OF INTELL. PROP. & ENT. LAW [Vol. 4:1
iii. Somatic and Germ-line Gene Modification
In addition to the abovementioned, biotechnological advances have made it
possible to modify the chromosomes of both human and animal cells through the
insertion of new DNA segments into the existing chromosome.60 Such techniques
are referred to as somatic or germ-line genetic modifications. If changes are
performed on specialized or differentiated body tissue — cells like liver, muscle,
or blood cells — it is referred to as somatic cell gene modification, which affects
only the individual whose DNA is modified.61 On the other hand, if the insertion is
performed on eggs or sperm cells prior to fertilization or in an embryo in its early
stages where its cells are undifferentiated, it is called germ-line genetic
modification.62 With germ-line modification, the effects of the altered genes go
beyond the individual organism on which the insertion was originally performed.63
Given that DNA is incorporated into the embryo’s germ cells, those genes will be
passed on to future generations.64
Scientists have performed genetic modification of both somatic and germ-
line cells in animals in order to examine the resulting impact of this alteration.
Somatic gene modifications have in fact been performed on humans dating back to
1990, which have targeted cells in attempts to correct an existing disease or
condition in that individual.65 But experiments with genetic modification on
laboratory animals like mice indicate that germ-line modification might be
technically easier than somatic.66 This might be because early embryonic cells are
more accepting of foreign DNA and more readily synthesize corresponding
proteins than most somatic cells.67 In one experiment successfully utilizing the
germ-line technique, researchers inserted into fertilized mouse eggs a gene that
promoted the synthesis of growth hormone.68 As a result, the developing mice
produced unusually high levels of the growth hormone and, ultimately, grew to
two times their normal size.69 Given the results of animal studies and the
60 Position Paper, supra note 21. 61 See Francis Fukuyama, Our Posthuman Future: Consequences of the Biotechnology
Revolution 76 (2002). 62 Id. at 77. 63 Position Paper, supra note 21. 64 BARUCH, supra note 22, at 11–20. 65 POSITION PAPER, supra note 21. 66 Id. 67 Id. 68 Id. 69 Id.
2014] PATENTABILITY OF “DESIGNER” GENES 48
increasing access and availability of IVF, “there appear to be no technical obstacles
to initiating germ-line modification experiments in humans”70 in order to achieve
genetic enhancements.
There are a number of well-established, existing methods for germ-line gene
modification that have been used in animal studies for several years.71 Three such
methods include (1) the introduction of a gene by direct pronuclear microinjection
of DNA segments (“PMI”), the most frequently used method, (2) the use of a virus
to carry the gene of interest to infect a target cell by delivering that gene, and (3),
in recent years, a process where sperm is used as a vector to deliver the genes.72
The first method, PMI, has actually been used to inject entire artificial
chromosomes.73 So, theoretically at least, the existing germ-line modification
techniques could be used for genetic enhancement purposes in humans.74
However, the current methods for germ-line genetic modification have not
yet been established “sufficiently reliable or safe to countenance their immediate
use with humans”75 and are not without issue. Both the viral and non-viral
mechanisms for genetic modification pose issues with precise placement and
expression of the modified genes.76 The insertion of foreign genes into imprecise
locations within a chromosome, either via direct injection or virus, may have
unpredictable consequences. This is demonstrated by one experiment in which the
offspring of a mouse injected with an extra copy of a gene were 40 times more
likely to develop cancer than the control group of mice.77 In another experiment,
insertion of a gene substantially interfered with naturally occurring genes in mouse
embryos, which resulted in mice with several physical deformities.78 These results
indicate that the techniques currently used for germ-line modifications can lead to
70 Id. 71 Id. 72 Id. 73 For a more comprehensive reading of these processes, see Kevin R. Smith, Sarah Chan, &
John Harris, Human Germline Genetic Modification: Scientific and Bioethical Perspectives, 43
ARCHIVES OF MEDICAL RESEARCH 491, 493–96 (2012), available at
http://www.arcmedres.com/article/S0188-4409(12)00244-5/pdf. 74 Id. 75 Id. 76
BARUCH, supra note 22, at 14–15. 77 Aya Leder et al., Consequences of Widespread Deregulation of the c-myc Gene in
Transgenic Mice: Multiple Neoplasms & Normal Development, 45 CELL 485 (1986). 78 A.J. Griffith et al.,. Optic, Olfactory, and Vestibular Dysmorphogenesis in the
Homozygous Mouse Insertional Mutant Tg9257, 19 J. CRANIOFAC. GENET. DEV. BIOL. 157–63
(1999).
49 N.Y.U. JOURNAL OF INTELL. PROP. & ENT. LAW [Vol. 4:1
developmental disruptions in the modified embryo itself.79 Unsuccessful attempts
at germ-line genetic modification in animals indicate that such a technique on
humans “can profoundly perturb ordinary biological function and introduce new,
harmful genetic variants into the gene pool[.]”80
The aforementioned problems are primarily associated with gene addition81.
But various techniques to introduce genetically modified DNA into gametes are
continuously developing. For example, researchers are now able to insert a gene
into a particular location on a chromosome, while simultaneously removing the
unwanted gene — i.e. gene replacement.82 While the Council for Responsible
Genetics suggested that such a technique would increase accuracy of genetic
modification, it also noted that this would not entirely eliminate the risk of the
procedure.83 One of these risks includes the lack of ability on the part of biologists
to fully understand or predict the potential interactions of genes with one another
within the environment of a specific individual.84 Certain genetic combinations
could prove harmful to the individual and, subsequently, to future offspring.85 The
risks associated with such harmful combinations would apply equally to germ-line
genetic modification in the contexts of alleviating disorders and enhancing certain
characteristics.86
In 2009, Japanese researchers successfully performed germ-line genetic
modification in mammals when they produced the first genetically modified
primates with the ability to pass the modified gene down to their offspring.87
Researchers modified a virus to carry a gene known as green fluorescent protein
(“GFP”) found in jellyfish.88 This virus was used to infect and transfer this gene to
79 POSITION PAPER, supra note 21. 80 Id. 81 To be clear, gene addition is the insertion of an extra copy of a malfunctioning or
nonfunctioning gene. See Gene Addition, BIOCHEMISTRY, http://www.biochem.arizona.edu
/classes/bioc461/Biochem499/RaymondCostantini/Pages/GeneAddition.htm (last visited Dec. 1,
2014). 82 POSITION PAPER, supra note 21. 83 Id. 84 Id. 85 Id. 86 Id. 87 Rob Stein, Test Monkeys’ Offspring Pick Up Genetic Modification, WASH. POST, May 28,
2009, at A1 (detailing the first successful germ-line modification of a primate and hypothesizing
that “[t]he approach could tempt some to use the technique to try to engineer desirable traits in
people”). 88 Id.
2014] PATENTABILITY OF “DESIGNER” GENES 50
the cells of several marmosets.89 The jellyfish gene, which causes the cells to glow
green when exposed to ultraviolet light, was present in four out of five offspring
resulting from the implantation of marmoset embryos in female marmosets.90
Researchers could identify the success of this genetic modification due to the fact
that the marmosets actually glowed green when exposed to ultraviolet light.91
Then, the researchers took gamete cells from two of the marmosets that carried the
gene and, from them, were ultimately able to produce four offspring — three of
which contained the jellyfish gene and glowed under ultraviolet light.92 The
success of this germ-line genetic modification of primates suggests the high
likelihood that the same technique would be similarly effective on humans.
Ultimately, biologists and medical researchers may be able to draw on the
scientific successes of somatic genetic modification in humans and the somatic and
germ-line modification in animal cells to achieve successful germ-line
modification in humans.93 This would allow for genetic enhancement of humans,
in addition to gene therapy — a distinction highly relevant to the following
discussion. Gene therapy primarily focuses on curing or reducing human diseases
and conditions, while genetic enhancement focuses instead on enhancing human
characteristics.94 Given the potential development and use of biotechnologies like
human germ-line genetic modification (“HGGM”), it is necessary to address the
legal implications posed by such technologies to the United States patent system.
II
THE SUPREME COURTS DECISION IN ASSOCIATION FOR MOLECULAR
PATHOLOGY V. MYRIAD GENETICS, INC.
A. Procedural Posture of Myriad Genetics
After several years of research, Myriad Genetics, Inc. (“Myriad”), a
molecular diagnostic testing and assessment company, obtained a number of
patents based on the discovery of two human genes, mutations of which correlate
with an increased risk of breast and ovarian cancer.95 Specifically, the Patent and
89 Id. 90 Id. 91 Id. 92 Id. 93 BARUCH, supra note 22, at 13. 94 Hanna, supra note 40. 95 Ass’n for Molecular Pathology v. USPTO, 653 F.3d 1329, 1339 (Fed. Cir. 2011); Myriad
Genetics, 133 S. Ct. at 2111. It is significant to note that there are several citations to this case in
its various procedural postures.
51 N.Y.U. JOURNAL OF INTELL. PROP. & ENT. LAW [Vol. 4:1
Trademark Office specifically granted patents for the isolated BRCA1 and BRCA2
genes.96 The patents essentially gave Myriad the exclusive right to isolate these
genes from an individual’s genome and also to synthetically create BRCA cDNA.97
Given that isolation is necessary to conduct genetic testing, the patents effectively
gave Myriad exclusive control of BRCA testing.98
The patents, however, did not stop others like the University of
Pennsylvania’s Genetic Diagnostic Laboratory (“GDL”) from providing genetic
testing services to women.99 In fact, Dr. Harry Ostrer, former researcher at New
York University School of Medicine, frequently sent DNA samples to GDL to be
tested.100 When Myriad learned that others were offering these services, it began to
assert its rights over the isolated genes, claiming all genetic testing infringed upon
its patents.101 Myriad filed suit against various entities providing the BRCA testing
and the litigation and threats thereof prevented several other medical practitioners
and entities from providing BRCA testing.102 Consequently, Myriad Genetics was
left as the sole entity that could provide or license the service.103
Several years later, Dr. Ostrer, along with health care professionals,
advocacy groups, and patients filed suit against Myriad Genetics seeking
invalidation of their patents under § 101 in the United States District Court for the
Southern District of New York.104 The plaintiffs asserted that Myriad’s claims
cover patent-ineligible subject matter.105 They alleged that the patenting of the
BRCA genes impeded research on breast cancer, and restricts the “ease of access
to genomic discoveries” and the dissemination of knowledge to patients.106
Approximately ten months after plaintiffs had filed their complaint, the
District Court granted summary judgment in their favor, invalidating all of
Myriad’s claims to the isolated BRCA genes and testing methods.107 Policy
96 See Ass’n for Molecular Pathology, 653 F.3d at 1339. 97 Myriad Genetics, 133 S. Ct. at 2113–14. 98 Id. at 2113. 99 Id. at 2114. 100 Id. 101 Id. 102 Ass’n for Molecular Pathology, 653 F.3d at 1340. 103 Myriad Genetics, 133 S. Ct. at 2114. 104 Id. 105 Complaint at 3, Ass’n for Molecular Pathology v. USPTO, 669 F. Supp. 2d 365 (S.D.N.Y.
2009) (No. 09 Civ. 4515). 106 Id. at 2 –4. 107 Ass’n for Molecular Pathology v. USPTO, 702 F. Supp. 2d 181, 238 (S.D.N.Y. 2010).
2014] PATENTABILITY OF “DESIGNER” GENES 52
considerations, namely, what plaintiffs alleged to be the diminished availability of
the testing for breast cancer, played into the court’s consideration of the motion for
summary judgment, but, ultimately, it decided that the issues were too complicated
to address at that stage.108
On appeal to the Federal Circuit, the court affirmed the judgment of the
lower court invalidating Myriad’s method patents for comparison and analysis of
DNA sequences, given that they covered abstract steps and were, thus, a subject
matter ineligible for patent.109 The court went on to reverse the district court’s
invalidation of the isolated DNA molecules on the grounds that the “the molecules
as claimed do not exist in nature.”110 As a result, the patents on the isolated
BRCA1 and BRCA2 genes were upheld.111
The Federal Circuit judges in this case each wrote separate opinions, in
which each judge addressed their own perspective and concerns. Judge Alan D.
Lourie wrote the opinion for the court, finding that the composition claims were in
fact patentable and noting that the “isolated DNAs, not just cDNAs, have a
markedly different chemical structure compared to native DNAs.”112 In her
concurrence, Judge Kimberly A. Moore discussed the moral implications that the
patents raised.113 However, she declined to address the moral and ethical issues,
noting that the job of the court is to interpret the words of the legislature, an
inquiry, she suggests, which “[has no] moral, ethical, or theological
components.”114
In a separate opinion, Judge William C. Bryson concurred and dissented in
part from the court’s decision.115 He disagreed with the court’s holding that the
isolated genes were a patent-eligible subject matter.116 Judge Bryson explained
that, given the established product of nature exception, the isolated genes were
108 Id. at 211. 109 Ass’n for Molecular Pathology, 653 F.3d at 1334. 110 Id. at 1334. 111 Id. at 1365 (“[T]he mere fact that the larger chromosomal polymer includes the same
sequence of nucleotides as the smaller isolated DNA is not enough to make it per se a law of
nature and remove it from the scope of patentable subject matter.”). 112 Id. at 1353. 113 Id. at 1371–73 (Moore, J., concurring in part). 114 Id. at 1373 (discussing the notion Chakrabarty that these types of policy considerations
are within the province of the legislature). 115 Id. (Fed. Cir. 2011) (Bryson, J., concurring in part and dissenting in part). 116 Id.
53 N.Y.U. JOURNAL OF INTELL. PROP. & ENT. LAW [Vol. 4:1
merely naturally occurring material and ineligible for patent.117 He also suggested
that a decision to the contrary “would likely have broad consequences, such as
preempting methods for whole-genome sequencing . . . .”118
In 2012, the case was granted certiorari by the Supreme Court. However,
the Court vacated the judgment and remanded to the Federal Circuit in light of the
Court’s holding in Mayo Collaborative Services v. Prometheus Labs.119 In Mayo,
the Court was confronted with patent claims for methods of determining effective
dosages of autoimmune disease medications in treating patients.120 Ultimately, the
court invalidated the patent. In its opinion, the Court significantly relied on the
public policy rationale that innovations restricting the ability to research and
develop natural laws should not be eligible for patent.121 The Court seemed to be
expanding the “naturally occurring” exception through its application of the law of
nature doctrine to a non-natural process. Justice Breyer discussed the Court’s
refusal to “uphold[] patents that claim processes that too broadly preempt the use
of a natural law.”122 Allowing these patents would “disproportionately t[ie] up the
use of the underlying natural laws, inhibiting their use in the making of further
discoveries.”123
On remand, the Federal Circuit again upheld patents. The same three-judge
panel reached the same legal conclusions, again allowing the isolated DNA patents
given their nonexistence in nature.124 Judge Lourie, again, delivered the opinion of
the court. While indicating the concern that these patents “raise substantial moral
and ethical issues related to awarding a property right to isolated portions of human
DNA,” Judge Moore indicated that these are issues that are more properly within
117 Id. at 1377–78 (citing Diamond v. Chakrabarty, 447 U.S. 303 (1980)). 118 Id. at 1373 (Bryson, J., concurring in part and dissenting in part). 119 Ass’n for Molecular Pathology v. Myriad Genetics, 132 S. Ct. 1794 (2012). 120 Mayo Collaborative Servs. v. Prometheus Labs., 132 S. Ct. 1289 (2012). Prometheus was
the exclusive licensee of a patent that’s claims were directed to a method of determining dosages
of drug to give to patients with particular autoimmune diseases. Effectiveness of dosages
inherently varies with each patient given their unique metabolization rates. Having identified a
threshold dosage for effectiveness, which was part of the claimed method, the plaintiffs argued
that they could more efficiently determine whether to increase or decrease the dosage of the drug
for individual patients. Id. 121 Id. 122 Id. at 1294 (citing O’Reilly v. Morse, 56 U.S. (15 How.) 62, 112–20 (1854)); see also
Gottschalk v. Benson, 409 U.S. 63, 71–72 (1972). 123 Mayo, 132 S. Ct. at 1294. 124 Ass’n for Molecular Pathology v. USPTO, 689 F.3d 1303, 1337 (Fed. Cir. 2012).
2014] PATENTABILITY OF “DESIGNER” GENES 54
the realm of Congress.125 In a dissenting opinion, Judge Bryson reiterated his
belief that the isolated DNA genes were not a patentable subject matter and
allowing such patents would “likely have broad consequences.”126
B. The Supreme Court’s Decision
The Supreme Court once again granted certiorari in order to determine the
validity of Myriad’s patents on the isolated BRCA genes and cDNA. The primary
issue before the Court was whether naturally occurring, but isolated DNA
sequences were eligible for a patent under 35 U.S.C. § 101.127 The Court also
addressed the issue of whether synthetically created DNA, or cDNA was patent
eligible.128 Ultimately, the Court affirmed and reversed in part the Federal
Circuit’s opinion, holding that “a naturally occurring DNA segment is a product of
nature and not patent eligible merely because it has been isolated, but that cDNA is
patent eligible because it is not naturally occurring.”129
Given that Myriad neither created or altered the genetic structure of DNA
nucleotides, the Court did not decide whether creation or alteration would lead to
unpatentability.130 Instead, it was first confronted with the question of whether the
discovery of the precise location and the isolation of the DNA genes renders them
patentable.131
In reaching its conclusion, the Court relied on Diamond v. Chakrabarty, in
which a patent for a modified bacterium was in dispute.132 In that case, scientists
had added four plasmids to the bacterium allowing it to break down crude oil.133
The Court explained that, prior to this patent claim, this was not a naturally
occurring composition of matter, but rather a “product of human ingenuity having
a distinctive name, character [and] use.”134 In Myriad Genetics, the Court noted
that the bacterium at issue in Chakrabarty had “markedly different characteristics
125 Id. at 1346 (Moore, J., concurring in part). 126 Id. at 1348 (Bryson, J., concurring in part and dissenting in part). 127 Id. 128 Id. Note that the cDNA created by Myriad “contain[ed] the same protein-coding
information found in a segment of natural DNA but omit[ted] portions within the DNA segment
that do not code for proteins.” Id. 129 Id. 130 Id. at 2116, 2120 (“Scientific alteration of the genetic code presents a different inquiry,
and we express no opinion about the application of § 101 to such endeavors.”). 131 Id. at 2116. 132 Chakrabarty, 447 U.S. at 305. 133 Id. 134 Id. at 309–10 (internal quotation marks omitted).
55 N.Y.U. JOURNAL OF INTELL. PROP. & ENT. LAW [Vol. 4:1
from any found in nature,” given its distinct chemical composition and its
newfound ability to break down oil.135 This was in stark contrast to Myriad’s mere
isolation of genes from its surrounding material.136
Justice Thomas went on to discuss Funk Brothers Seed Co. v. Kalo
Inoculant Co.137, where the Court considered a patent for a resultant mixture of
naturally occurring bacteria.138 The mixture of bacteria was created as a way of
improving the nitrogen intake of leguminous plants and was ultimately a more
effective inoculant139, given that other inoculants often mutually inhibited each
other.140 The Court nonetheless held that the mixture was not proper subject matter
under § 101, finding that there had been no alteration to the bacteria.141
In Myriad Genetics, there was no alteration to the chemical composition of
the genetic material, nor was there any change in the material as a result of
isolation.142 The Court stated that it was not enough that Myriad’s isolation of
DNA entailed the severance of the covalent bonds — holding the nucleotides of
the DNA molecule in place — and effectively created a non-naturally occurring
molecule.143 The claims themselves simply focused on the genetic information
contained in the isolated genetic sequence.
The Court then moved on to a discussion of cDNA, recognizing that the
synthetic DNA did not pose the same legal challenges as the isolated DNA
segments.144 The cDNA that Myriad claimed was a sequence resulting in only the
inclusion of exons, as opposed to naturally occurring sequences which include both
exons and introns. While acknowledging that nature dictated the structure of the
nucleotide sequence, the Court found that resulting cDNA was an
135 Myriad Genetics, 133 S. Ct. at 2217 (citing and quoting Chakrabarty, 447 U.S. at 310). 136 Id. at 2117. 137 Funk Bros. Seed Co. v. Kalo Inoculant Co., 333 U.S. 127 (1948). 138 Id. 139 Inoculants are soil additives that serve to promote plant health when included in the
surrounding soil or on the roots of the plant itself. See generally id. 140 Id. at 129–30. 141 Id. at 132 (“There is no way in which we could call [the bacteria mixture a product of
invention] unless we borrowed invention from the discovery of the natural principle itself.”). 142 Myriad Genetics, 133 S. Ct. at 2118. 143 Id. To be clear, the genes are only non-naturally occurring in the sense that this particular
genetic sequence is not found isolated in nature. 144 Id. at 2119
2014] PATENTABILITY OF “DESIGNER” GENES 56
“unquestionabl[e] creat[ion] of something new,” since it was “distinct from the
DNA from which it was derived.”145
Myriad Genetics, in conjunction with Chakrabarty, could be read to suggest
that the act of creating or altering of naturally occurring material are significant in
determining patentability.146 However, it seems that the Court is only willing to
uphold a patent when claims deal with the creation or alteration of the essential
nature of the original material, effectively crewating a “markedly different”
material.
III
THE APPLICATION OF MYRIAD GENETICS TO GENETICALLY MODIFIED OR
SYNTHETIC GAMETES AND EMBRYOS
As has been discussed, in the last three decades, biotechnology has been
advancing at such a rate to make human genetic enhancement an actual reality.147
For years, scientists have had the ability to screen developing human embryos for
chromosomal abnormalities and genetic disorders.148 It is not in the unforeseen
future that parents will be able to hand-select the genes that their children will
encompass. Developments in assisted reproduction technologies have led to the
creation of new markets for things like gametes and embryos.149 These new
markets raise significant questions in patent law, regarding ownership and rights
surrounding human genes, embryos, gametes, and the like.150 The Supreme Court
made clear the unavailability of patents on isolated human genes in Myriad
Genetics, but a question remains as to patentability of the creation of synthetic
DNA or the alteration of naturally occurring DNA in the context of genetic
enhancement of human gametes and embryos. This section will address how this
subject matter should be addressed in light of the Court’s holding in Myriad
Genetics.
145 Id. 146 See, e.g., Myriad Genetics, 133 S. Ct. at 2117 (contrasting the patent claims at issue in
Myriad to those in Chakrabarty and finding that, unlike in Chakrabarty, “Myriad did not create
anything” (emphasis added)); Chakrabarty, 447 U.S. at 310 (upholding patent on modified
bacteria given the resulting bacterium’s “markedly different” properties and abilities). 147 POSITION PAPER, supra note 21. Genetic engineering procedures are conducted on
animals, and these procedures have resulted in mice growing to twice their size and cows
producing milk enhanced with pharmaceuticals. This testing may ultimately result in athletically
gifted children, the physically attractive, or a math genius. See id. 148 See generally REPRODUCTION AND RESPONSIBILITY, supra note 34, 89–104. 149 Id. at 147. 150 Id.
57 N.Y.U. JOURNAL OF INTELL. PROP. & ENT. LAW [Vol. 4:1
A. The Emergence of Human Genes as a Topic in Patent Law
Over the past several decades, the growing industry of biotechnology has
left us with many questions about what can and cannot be afforded patent
protection. While 35 U.S.C. § 101 defines patentable subject matter as “any new
and useful process, machine, manufacture, or composition of matter, or any new
and useful improvement thereof,” one of the provisions of the America Invents
Act, passed by Congress in 2011, specifically prohibits the issuance of patents for
inventions “direct to or encompassing human organisms.”151 This provision
consequently puts a spotlight on many reproductive biotechnologies, including
genetic modification techniques.
Until Myriad Genetics, courts had not addressed the issue of whether genetic
material was a patent-eligible subject matter under § 101. Despite this fact, the
first patents on human genes were issued by the PTO in the early 1980s.152 By the
time of the Supreme Court’s decision, there were an estimated 2,645 issued patents
claiming “isolated DNA.”153 By 2005, the PTO had issued close to 40,000 DNA-
related patents that, in total, covered about twenty percent of the genes in the
human genome.154
In the past, patents have been issued on modified human tissue, cell lines,
and even DNA molecules of human origin.155 It was not until recently, however,
that patents for genetically modified gametes or embryos appeared to be on the
horizon. In 2013, a personal-genomics company called 23andMe was issued a
patent on a system of reproductive technology156 for a process in which fertility
clinic patients could identify certain characteristics that they would like their child
to have.157 Based on donors’ and patients’ genetic profiles, the program then runs
an inheritance calculation, which can identify the preferred donors for the
recipient. The patient can select for a child with a low risk of certain genetic
conditions, or even request that the child have a high probability of a certain eye
color.158 Significantly, the issuance of this patent indicates a move in patent law
towards the protection of genetic enhancement techniques and processes.
151 Leahy-Smith America Invents Act, § 33(a). 152 See Eric J. Rogers, Can You Patent Genes? Yes and No, 93 J. PAT. & TRADEMARK OFF.
SOC’Y 19, 28 (2011). 153 Ass’n for Molecular Pathology, 689 F.3d at 1333. 154 Rogers, supra note 152, at 19. 155 REPRODUCTION AND RESPONSIBILITY, supra note 34. 156 Naik, supra note 38. 157 Id. 158 Id.
2014] PATENTABILITY OF “DESIGNER” GENES 58
According to Jacob Sherkow, formerly a biotechnology patent expert at Stanford
University’s law school and now an Associate Professor of Law at New York Law
School, said that 23andMe’s patent “is a shot across the bow — a signal to the
world that this is what the future is going to look like.”159
B. Judicial Precedent on the Patentability of Living Organisms
Existing case law in this area does not seem to produce a coherent rule of
law with respect to patent eligibility of living organisms. It first began when the
Supreme Court in Diamond v. Chakrabarty upheld a patent on a living bacterium
organism.160 In Chakrabarty, the Court determined that the scientific alteration of
a bacterium sufficiently transformed it into a new chemical composition with new
capabilities of breaking down crude oil.161
Since Chakrabarty was decided, patents have been issued on several human-
made organisms, including multicellular organisms162 and genetically altered
mammals.163 Nonetheless, the Supreme Court has continued to reiterate the
limitations on the subject matter that is eligible for patent. Prior to Myriad
Genetics, the Court in Mayo had previously concluded that “simply appending
conventional steps, specified at a high level of generality, to laws of nature, natural
phenomena, and abstract ideas cannot make those laws, phenomena, and ideas
patentable.”164 In Myriad Genetics, the Court explained that it has “long held that
[§ 101 of the Patent Act] contains an important “implicit exception” that “[l]aws of
nature, natural phenomena, and abstract ideas are not patentable.”165
But in discussing this “rule against the patents on naturally occurring
things,” it noted that a balancing test limits the extent of this prohibition; that is, “a
delicate balance between creating ‘incentives that lead to creation, invention, and
discovery’ and ‘imped[ing] the flow of information that might permit, indeed spur,
159 Id. 160 Chakrabarty, 447 U.S. 303; see also Keay, supra note 15, at 421–30. 161 Chakrabarty, 447 U.S. at 309–10. 162 See In re Allen, No. 87-1393, 1988 WL 23321 (Fed. Cir. Mar. 14, 1988) (upholding a
patent on a new type of oyster). 163 See U.S. Patent No. 4,736,866 (filed June 22, 1984) (issued Apr. 12, 1988). 164 Mayo, 132 S. Ct. at 1300. 165 Myriad Genetics, 133 S. Ct. at 2116 (citing Mayo Collaborative Servs. v. Prometheus
Labs., — U.S. —, 132 S. Ct. 1289, 1293 (2012)). In stating the rule against patents on naturally
occurring things, the Court in Mayo noted “[s]uch discoveries are ‘manifestations of . . . nature,
free to all men and reserved exclusively to none.’” Mayo, 132 S. Ct. at 1293 (quoting
Chakrabarty, 447 U.S. at 309).
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invention.’”166 This was the standard governing the court’s decision on the
whether what Myriad had claimed was a proper subject matter for patent.167
To be clear, there are two separate holdings in Myriad Genetics. First, the
Court held that an isolated, naturally occurring DNA segment is a product of
nature and, as such, not eligible for patent.168 Second, the Court fond that cDNA, or
the lab created DNA, is eligible for patent, given that “it is not naturally
occurring.”169 When looking closely at the holding in Myriad Genetics, the Court
specifically identifying an exception to certain uses of natural phenomenon.170
Consequently, “only an innovative or inventive use of a natural phenomenon” may
be patentable.171 The Court’s opinion implicitly suggests that the alteration or
creation of the information in the human genes or other material would a
significant factor in determining whether the subject matter is “naturally
occurring.”172 Given that Myriad neither altered or created the BRCA genes, and
that its primary contribution was discovering the location and identifying the
sequencing of the genes within particular chromosomes, the court found it patent-
ineligible.173 Simply “separating that gene from its surrounding genetic material is
not an act of invention.”174
Depending on the future technology involved in creating desirable genetic
sequences with hand selected characteristics, there could be one of two legal
possibilities for an application for patent protection. Should the biotechnology
industry produce a technique for isolating particular genetic human traits, perhaps
taken from embryonic stem cells, then it would seem to necessarily follow that the
these isolated genes would nonetheless be naturally occurring and constitute a
non-patentable subject matter. However, a new question arises should these
isolated genes be used to create a synthetic genetic sequence that alters or replaces
an existing sequence and is not naturally occurring.
166 Myriad Genetics, 133 S. Ct. at 2116 (quoting Mayo, 132 S. Ct. at 1305). 167 Id. 168 Id. at 2111. 169 Id. 170 Myriad Genetics, 133 S. Ct. at 2119 (“Had Myriad created an innovative method of
manipulating genes while searching for the BRCA1 and BRCA2 genes, it could possibly have
sought a method patent.”). 171 Ariosa Diagnostics, Inc. v. Sequenom, Inc., No. C 11-06391 SI, 2013 WL 5863022, at *9
(N.D. Cal. Oct. 30, 2013) (quoting Myriad Genetics, 133 S. Ct. at 2119). 172 Id. at 2115–16. 173 Id. at 2116. 174 Id. at 2117.
2014] PATENTABILITY OF “DESIGNER” GENES 60
C. The Demise of the “Beneficial Utility” Requirement and the Introduction
of the America Invents Act
For patent eligibility, the innovation or invention must be (i) novel, (ii)
nonobvious, (iii) useful.175 Under the utility requirement, “beneficial utility” used
to play a significant role.176 Dating back to 1817, Justice Story recognized this
doctrine in Lowell v. Lewis, where he stated the view that “the law requires . . . the
invention should not be frivolous or injurious to the well-being, good policy, or
sound morals of society.”177
While previously a consideration under the utility prong, the Court by the
mid-1990’s no longer seemed interested in assessing the morality of inventions in
patent law.178 Since Lowell, federal courts have relaxed, if not dismissed, this
additional requirement of beneficial utility. For example, the Federal Circuit in
Juicy Whip, Inc., v. Orange Bang, Inc., evaluated a case in which a patented
product was misleading to customers as to the source of the product it was
producing.179 Nonetheless, the court stated that a doctrine invalidating patents
serving immoral or illegal purposes “has not been applied broadly in recent
years.”180 It also suggested that the legislature is free to prohibit patents on such
deceptive devices but has not yet done so.181 The Supreme Court conveyed a
similar idea in Chakrabarty, when it noted that the Court was “without competence
to entertain [arguments regarding the balancing of risks and benefits of inventions]
. . . the contentions [before the Court] should be addressed to the political branches
of Government . . . .”182
Despite the current broad interpretation of the bounds of patentable subject
matter rejecting a beneficial utility doctrine, morality cannot be entirely dismissed
from a discussion of patents on human gametes and embryos. As implied by the
first Federal Circuit opinion in Myriad Genetics, one of the primary functions of
the judiciary is to interpret federal statutory law and regulations governing the
175 35 U.S.C. § 101. 176 See generally ROBERT P. MERGES & JOHN F. DUFFY, PATENT LAW AND POLICY: CASES
AND MATERIALS 216–28 (3d ed. 2002) (describing the history behind the doctrine of beneficial
utility of the doctrine). 177 Lowell, 15 F. Cas. at 1019. 178 Keay, supra note 15, at 429. 179 Juicy Whip, 185 F.3d at 1366–67. 180 Id. 181 Id. at 1368. 182 Chakrabarty, 447 U.S. at 317.
61 N.Y.U. JOURNAL OF INTELL. PROP. & ENT. LAW [Vol. 4:1
realm of patent.183 The Federal Circuit went on to suggest the inappropriateness of
courts to intervene in policy decisions that are more adequately addressed by the
legislature.184 This indicates a key distinction between Myriad Genetics and any
future case involving the patent – eligibility of human gametes or embryos. The
distinction is one based on Congress’s express recognition of the ethical and moral
concerns regarding patent claims “directed to or encompassing human organisms”
through the adoption of a federal statute excluding such subject matter from the
realm of patentability.185 The fact that Congress has spoken with regard to the
patentability of this sort of subject matter should portend courts’ adherence to this
preference.186
1. The America Invents Act’s Prohibition on Patents for Inventions “Directed to
or Encompassing Human Organisms.”
While the issuance of patents can potentially serve the significant purpose of
encouraging innovation and the research and development of beneficial advances
in the industry of biotechnology, patents on human gametes and embryos clearly
raise a number of ethical concerns, which are expressly recognized by federal
statute.187 Prior to Myriad Genetics, Congress directly addressed the issue of
patenting human organisms through the America Invents Act. Section 33(a) of the
Act states, in relevant part, that “[n]otwithstanding any other provision of law, no
patent may issue on a claim directed to or encompassing a human organism.”188
It is significant that Myriad Genetics was not a case in which the court was
confronted with the §33(a) of the America Invents Act discussed supra. To this
extent, the holding should be properly narrowed to synthetic DNA which does not
implicate this federal statute — e.g. medical uses and gene therapy, and not those
materials that are so intimately related to human organisms and their creation and
development. The statue itself makes no distinction between naturally occurring or
183 Ass'n for Molecular Pathology, 653 F.3d at 1353. 184 Id. (“[T]he Supreme Court has ‘more than once cautioned that courts should not read into
the patent laws limitations and conditions which the legislature has not expressed’” (quoting
Bilski v. Kappos, 561 U.S. 593, 602 (2010)). 185 Leahy-Smith America Invents Act, § 33(a). 186 See Chakrabarty, 447 U.S. at 317 (“[T]he balancing of competing values and interests,
which in our democratic system is the business of elected representatives . . . should be
addressed to the political branches of the Government, the Congress and the Executive, and not
to the courts.”); Juicy Whip, 185 F.3d at 1366–68 (upholding patent on deceptive product, but
noting that it would defer to Congress if it were to make the patenting of such devices illegal). 187 Leahy-Smith America Invents Act, § 33(a). 188 Id.
2014] PATENTABILITY OF “DESIGNER” GENES 62
synthetic materials in its prohibition on patents “directed to or encompassing
human organisms.”189
Significantly, § 33(a) may serve to limit the extent of the impact that Myriad
Genetics will have on the analysis on the patentability of modified gametes and
embryos. The Court will be confronted with a case necessarily involving statutory
construction, something that was not involved in Myriad Genetics. When this
issue arises, undoubtedly much of the debate will surround the precise meaning of
the phrases “directed to” and “human organism.”190 Unfortunately, the Act itself
does nothing to precisely define either of these phrases, and its legislative history
seems “riddled with internal contradictions, ad hoc exceptions, and, generally, a
lack of any coherent guiding principle.”191 It is important to note that the phrase
“human organism” seems to have been intended to have the same meaning as it did
under the Weldon Amendment — off of which § 33 was modeled.192 The Weldon
Amendment was originally put forward by U.S. Representative Dave Weldon and
passed as a part of the Consolidated Appropriations Act of 2004, which barred
appropriated federal funds from their use in issuing patents “directed to or
encompassing a human organism”193 The legislative history of this amendment
offers some guidance to the meaning of this prohibition in both the Appropriations
Act and § 33:
189 Id. 190 See Dennis Crouch, Patents Directed to Human Organisms, PATENTLYO (Sept. 9, 2011),
http://www.patentlyo.com/patent/2011/09/patents-directed-to-human-organisms.html (“The
phrase ‘directed to’ is not defined in the Patent Act or the USPTO Implementation Rules found
at 37 C.F.R. § 1, et seq. However, the phrase [is] often used by patent attorneys to describe the
coverage of a particular claim and the statutory category. Even amongst patent attorneys, the
usage is not uniform.”). 191 Yaniv Heled, On Patenting Human Organisms or How the Abortion Wars Feed into the
Ownership Fallacy, 36 CARDOZO L. REV. 241, 243–44 (2014). 192 Id. at 261, n.86 (“The sponsors of Section 33 viewed the Section as mere codification of
the Weldon Amendment and, as such, as a direct extension of the Weldon Amendment's
jurisprudence, including the meaning of the term ‘human organism.’”); see 157 Cong. Rec.
E1177, E1177-78 (“Chairman Lamar Smith [included] in the manager's amendment to . . . the
America Invents Act, a provision that will codify an existing pro-life policy rider included in the
CJS Appropriations bill since FY2004. This amendment, commonly known as the Weldon
amendment, ensures the U.S. Patent and Trade Office, USPTO, does not issue patents that are
directed to or encompassing a human organism . . . . I also submit into the Record items from
previous debate on the Weldon amendment that will add further clarification to the intent of this
important provision.”). 193 Consolidated Appropriations Act of 2004, Pub. L. No. 108-199, § 634, 118 Stat. 3 (2004).
63 N.Y.U. JOURNAL OF INTELL. PROP. & ENT. LAW [Vol. 4:1
[T]he U.S. Patent Office has already issued patents on genes, stems
cells, animals with human genes, and a host of non-biologic products
used by humans, but it has not issued patents on claims directed to
human organisms, including human embryos and fetuses. My
amendment would not affect the former, but would simply affirm the
latter.194
The history of the Weldon Amendment helps delineate Congress’s intended
meaning of the statute. The congressional record further reveals that “the
amendment applies to patents on claims directed to or encompassing a human
organism at any stage of development, including a human embryo . . . regardless
of whether the organism was produced by technological methods (including, but
not limited to, in vitro fertilization, somatic cell nuclear transfer, or
parthenogenesis).”195 It, admittedly, goes on to note that the amendment should
not preclude “methods for creating, modifying, or treating human organisms,
including . . . through in vitro fertilization, methods of somatic cell nuclear
transfer, medical or genetic therapies, methods for enhancing fertility, and methods
for implanting embryos.”196
Nevertheless, given the text of the act and what legislative history is clear, it
seems obvious that human embryos would not constitute a patentable subject
matter under 35 U.C.S. § 101. Pursuant to the America Invents Act, no patents
shall issue to inventions “directed to or encompassing a human organism.”197
Genetically engineered or altered human embryos are the epitome of what the
America Invents Act sought to keep beyond the realm of patent. While no
definition is provided for this phrase, a human embryo, including those genetically
altered or synthetically created, contains all of the elements necessary for human
life to form and develop and would undoubtedly “encompass a human organism.”
It is less obvious, given the lack of clear guidance in interpreting this phrase,
that gametes would fall into this category. But, within the Manual of Patenting
194 157 CONG. REC. E1177-04 (testimony of Representative Dave Weldon previously
presented in connection with the Consolidated Appropriations Act of 2004, Pub. L. 108-199, §
634, 118 Stat. 3, 101 (2004), and later resubmitted with regard to the America Invents Act; see
149 Cong. Rec. E2417-01). 195 157 Cong. Rec. E1177-04, E1180 (daily ed. June 23, 2011) (emphasis added) (statement
of Rep. Dave Weldon). 196 157 Cong. Rec. E1182, E1183 (daily ed. June 23, 2011) (emphasis added) (statement of
Rep. Lamar Smith). 197 Leahy-Smith America Invents Act § 33(a); see also MPEP § 2105 (8th ed. Rev. 8, July
2010).
2014] PATENTABILITY OF “DESIGNER” GENES 64
Examining Procedures, the PTO has indicated that a rejection will be made on the
basis of non-statutory subject matter “[i]f the broadest reasonable interpretation of
the claimed invention as a whole encompasses a human organism[.]”198 Given that
gametes contain at least half of the genetic material that goes into the formation of
a human embryo, it seems consistent that genetically altered or synthetic gametes,
like embryos would “encompass[] a human organism” — thus, considered a non-
patentable subject matter. At the very least, genetically altered gametes would be
“directed to” a human organism. These cells are the building blocks of human life.
Sperm and egg combine together to form an embryo, which has the potential to
develop into a living, functioning human being. Consequently, even if they are
genetically modified through germ-line modification or another technique, they do
not lose their inherent capability of producing human life. Moreover, to the extent
that scientists may create synthetic genetic material in order to alter gamete cells,199
the gamete itself would still be ineligible for patent, and, arguably, so to would the
synthetic genetic material itself.
Researchers and scientists may attempt to skirt this prohibition by receiving
a patent on the process of modifying human gametes or embryos given the Weldon
amendment’s “methods” exception.200 However, a patent application of this sort
would nevertheless include claims directed to a human organism for the reasons
described above. Furthermore, the excepted methods that are enumerated only
encompass assisted reproductive technologies, somatic cell nuclear transfers, and
genetic therapies.201 While the legislative history does not provide an exhaustive
list of exceptions, methods for genetic enhancement — distinct from genetic
therapy — are not included and do not appear to have been contemplated.202 The
techniques and processes involved in altering gametes or embryos to achieve
desired characteristics would be directly aimed at creating genetically enhanced
human organisms; methods that are not explicitly protected in the legislative
history.
198 MPEP § 2105 (8th ed. Rev. 8, July 2010). 199 It does not seem scientifically impossible to synthetically create the desirable DNA
characteristics and use those to modify existing human gametes and genes. See Myriad Genetics,
133 S. Ct. at 2112–13 (discussing the discussed the possibility of creating synthetic DNA
through well-known scientific processes). 200 157 Cong. Rec. E1182, E1183 (daily ed. June 23, 2011). 201 Id. (excepting methods including “in vitro fertilization, methods of somatic cell nuclear
transfer, medical or genetic therapies, methods for enhancing fertility, and methods for
implanting embryos”). 202 Id.
65 N.Y.U. JOURNAL OF INTELL. PROP. & ENT. LAW [Vol. 4:1
Admittedly, it is questionable whether legislative history will or should bear
any weight in statutory construction. However, under the above formulations it
would suggest that gametes and embryos would both be considered within the
realm of human organisms, since it arguably encompasses organisms at any stage
of development. Moreover, the methods for genetic enhancement techniques are
distinct from medical or genetic therapy processes involving the creation of
embryos, and is not expressly excluded from the realm of patentability.
It is significant to reiterate the distinction between genetic modification
characterized as gene therapy and genetic enhancement. 203 What has been termed
gene therapy is primarily focused on curing or reducing human diseases and
conditions, where as genetic enhancement focuses in stead on enhancing human
characteristics.204 In analyzing the legislative history of the Weldon Amendment,
it does not expressly exclude genetic enhancement from patent law’s prohibition
on claims “directed to or encompassing human organisms” but does address
genetic therapy.205 Accordingly, to properly adhere to legislative intentions,
federal courts should view the impact of Myriad Genetics as limited in determining
whether human gametes or embryos are patentable, either synthetic or natural.
That is, when the patents at issue implicate § 33(a), Myriad Genetics should apply
only in the limited context of the patentability of medical processes or genetic
therapies,206 and not in contexts of genetic enhancement.
For example, patents on synthetic DNA similar to that in Myriad Genetics,
but used in germ-line genetic modifications or reproductive cloning might
implicate the federal statute. As gametes have the ability to pass along hereditary
genetic information from one organism to its offspring207, any synthetic gene or
DNA that is inserted into a gamete is essential to the ultimate function of that
gamete or embryo. In other words, without the incorporated synthetic DNA, a
modified gamete would not be able to ensure perpetuation of its genetic
information. In this way, it would seem a claim for such synthetic genes or DNA
sequences, like those that could be utilized in germ-line genetic modification,
might well be an invention “directed to or encompassing a human organism,” and,
accordingly, prohibited by statute.208
203 See Hanna, supra note 40. 204 Id. 205 157 Cong. Rec. E1182, E1183 (daily ed. June 23, 2011) (emphasis added). 206 Id. 207 BARUCH, supra note 22, at 11. 208 Leahy-Smith America Invents Act § 33(a).
2014] PATENTABILITY OF “DESIGNER” GENES 66
It is important to note that Myriad Genetics was considering a sort of gene
therapy, where the location and isolation of the BRCA genes enabled testing for
and treatment of certain health conditions within the human body; the Court was
not considering genetic enhancement. But, in upholding the patents on Myriad’s
claims for cDNA, the Court’s holding only specifically applied to cDNA, which
did not encompass a human organism. These are synthetic materials that are
entirely created and inserted by the scientists.209 The synthetic DNA involved in
Myriad Genetics was designed to to diagnose and target conditions within a human
organism, but, admittedly, does not itself encompass one. However, gametes and
embryos for all of the aforementioned reasons are fundamentally distinct from the
type of material that Myriad was creating and should be treated as such in
subsequent federal court cases involving such genetic material.
CONCLUSION
In sum, the advances of biotechnology and reproductive technologies invite
the question of the patentability of human gametes and embryos. The challenges
this question poses to patent law seems even more imminent given the Supreme
Court’s holding in Myriad Genetics. However, pursuant to the MPEP and the
America Invents Act, no innovation or invention “directed to or encompassing a
human organism”210 will be considered for a U.S. patent, and the holding in
Myriad Genetics does nothing to disturb this prohibition. While the phrase directed
to is never precisely defined or used in any other section of the Act, the plain
meaning of the phrases and legislative history may help to inform the analysis in
federal courts. Ultimately, the Supreme Court’s holding upholding patents on
cDNA should be limited in its reach and should not apply in circumstances that are
in direct contradiction to federal law — namely, section 33’s express prohibition
on patents “directed to or encompassing human organisms.”211
209 The Supreme Court discussed the possibility of creating synthetic DNA through well-
known scientific processes. “It is also possible to create DNA synthetically through processes
similarly well known in the field of genetics. One such method begins with an mRNA molecule
and uses the natural bonding properties of nucleotides to create a new, synthetic DNA molecule.
The result is the inverse of the mRNA’s inverse image of the original DNA, with one important
distinction: Because the natural creation of mRNA involves splicing that removes introns, the
synthetic DNA created from mRNA also contains only the exon sequences. This synthetic DNA
created in the laboratory from mRNA is known as complementary DNA (cDNA).” Myriad
Genetics, 133 S. Ct. at 2112. 210 Leahy-Smith America Invents Act, § 33(a). 211 Id.